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    Reinforced Concrete Finite Element Modeling based on the Discrete Crack Approach

    Neue Suche nach: Sri Tudjono
    Neue Suche nach: Han Ay Lie
    Neue Suche nach: Sholihin As’ad

    The behavior of reinforced concrete elements is complex due to the nature of the concrete that is weak in tension. Among these complex issues are the initial cracking and crack propagation of concrete, and the bond-slip phenomenon between the concrete and reinforcing steel. Laboratory tested specimens are not only costly, but are limited in number. Therefore a finite element analysis is favored in combination to experimental data. The finite element technique involving the cracks inserting is one of the approaches to study the behavior of reinforced concrete structures through numerical simulation. In finite element modeling, the cracks can be represented by either smeared or discrete crack. The discrete crack method has its potential to include strain discontinuity within the structure. A finite element model (FEM) including the concrete cracking and the bond-slip was developed to simulate the nonlinear response of reinforced concrete structures.

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    Reinforced Concrete Finite Element Modeling based on the Discrete Crack Approach

    Neue Suche nach: Sri Tudjono
    Neue Suche nach: Han Ay Lie
    Neue Suche nach: Sholihin As’ad

    The behavior of reinforced concrete elements is complex due to the nature of the concrete that is weak in tension. Among these complex issues are the initial cracking and crack propagation of concrete, and the bond-slip phenomenon between the concrete and reinforcing steel. Laboratory tested specimens are not only costly, but are limited in number. Therefore a finite element analysis is favored in combination to experimental data. The finite element technique involving the cracks inserting is one of the approaches to study the behavior of reinforced concrete structures through numerical simulation. In finite element modeling, the cracks can be represented by either smeared or discrete crack. The discrete crack method has its potential to include strain discontinuity within the structure. A finite element model (FEM) including the concrete cracking and the bond-slip was developed to simulate the nonlinear response of reinforced concrete structures.

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    Reinforced Concrete Finite Element Modeling based on the Discrete Crack Approach

    Neue Suche nach: Sri Tudjono
    Neue Suche nach: Han Ay Lie
    Neue Suche nach: Sholihin As’ad

    The behavior of reinforced concrete elements is complex due to the nature of the concrete that is weak in tension. Among these complex issues are the initial cracking and crack propagation of concrete, and the bond-slip phenomenon between the concrete and reinforcing steel. Laboratory tested specimens are not only costly, but are limited in number. Therefore a finite element analysis is favored in combination to experimental data. The finite element technique involving the cracks inserting is one of the approaches to study the behavior of reinforced concrete structures through numerical simulation. In finite element modeling, the cracks can be represented by either smeared or discrete crack. The discrete crack method has its potential to include strain discontinuity within the structure. A finite element model (FEM) including the concrete cracking and the bond-slip was developed to simulate the nonlinear response of reinforced concrete structures.

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    Titel:

    Reinforced Concrete Finite Element Modeling based on the Discrete Crack Approach

    Beteiligte:

    Sri Tudjono (Autor:in) / Han Ay Lie (Autor:in) / Sholihin As’ad (Autor:in)

    Erschienen in:

    Civil Engineering Dimension, Vol 18, Iss 2, Pp 72-77 (2016)

    Erscheinungsdatum:

    2016

    ISSN:

    1410-9530 , 1979-570X

    Medientyp:

    Aufsatz (Zeitschrift)

    Format:

    Elektronische Ressource

    Sprache:

    Unbekannt

    Schlagwörter:

    Finite element model; discrete crack; bond-slip , Engineering (General). Civil engineering (General) , TA1-2040

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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